Desenvolvimento de nanomateriais superparamagnéticos funcionais para uma química sustentável / Developing functional magnetic nanomaterials for a sustainable chemical approach

André Zuin

20 June 2011

Através do uso de reagentes ambientalmente corretos, foram desenvolvidos métodos mais simples que os tradicionais para obtenção de diversos tipos de nanopartículas de magnetita (MagNP) funcionalizadas. Em todos os casos foi confirmado um comportamento superparamagnético consistente com a presença de monodomínios magnéticos de Fe3O4, com diâmetros médios de partícula inferiores a 100 nm, além de histerese nula acima de 280 K, Tb=90K em H=500 Oe e magnetização de saturação em torno de 90 emu g-1. Os métodos de síntese das MagNP foram conduzidos em solventes derivados do biodiesel de soja/mamona, em substituição ao insumos importados, permitindo uma redução significativa nos custos de produção desse tipo de nanomaterial, e viabilizando sua produção em larga escala. Os nanomateriais foram voltados inicialmente para captura, separação e reciclagem de insumos e produtos químicos, incluindo poluentes, catalisadores e enzimas, utilizando ímãs externos. Os procedimentos desenvolvidos proporcionaram uma alternativa verde para os processos convencionais que fazem uso extensivo de solventes, geram muito descarte, e utilizam processos com alta demanda de energia, como centrifugação, extração por solventes e filtração sob altas pressões. As MagNP foram especialmente projetadas para serem dispersas em diversos meios polares e apolares, de acordo com o tipo de funcionalização química na superfície, utilizando principalmente moléculas orgânicas anfifílicas capazes de se ligar na superfície do Fe3O4 por meio de grupos polares, e com matrizes carbonáceas por meio de interações hidrofóbicas. Dessa forma foram gerados novos nanomateriais superparamagnéticos incorporando diversos tipos de matrizes que foram testadas para a remoção de óleo e de compostos orgânicos responsáveis por odores e cores indesejadas em efluentes industriais, bem como para a captura, transporte, recuperação, análise de espécies metálicas ou orgânicas. Foram testadas janelas ópticas e displays nos quais a intensidade de luz transmitida ou refletida pode ser modulada com ímãs externos. O projeto, financiado pela PETROBRÁS contemplou ainda outras aplicações sigilosas, que foram omitidas desta tese. Seu andamento abriu uma importante janela em prol da sustentabilidade, levando ao início do desenvolvimento no Laboratório, da nanomagneto-hidrometalurgia verde para obtenção e reciclagem de metais estratégicos, e de trabalhos de despoluição magnética de ambientes contaminados. / New routes for low cost production of functionalized magnetic nanoparticles (MagNP) have been pursued in this Thesis, by employing environmentally compatible chemicals and resources. The nanomaterials exhibited typical superparamagnetic behavior consistent with the presence of magnetic monodomains, revealing no hysteresis above 280 K, Tb = 90 K at H = 500 Oe, and saturation magnetization as high as 90 emu g-1. The synthetic procedures were carried out using biocompatible solvents derived from biodiesel of soybean and Brazilian mamona seeds, leading to substantial reduction of cost for large-scale production. The superparamagnetic nanoparticles were initially designed for capturing, transporting and recycling chemicals or drugs, including pollutants, catalysts and enzymes, using external magnets. They provide a green alternative strategy for conventional processes that make extensive use of solvents, generate too much waste, and proceeds through highly energetic demanding steps such as centrifugation, solvent extraction and high-pressure filtration. In our work, the MagNPs were appropriately modified for working in polar and non-polar media, employing for instance, amphiphilic species for interacting with Fe3O4 using the available polar groups, and also with carbon surfaces by means of hydrophobic interactions. Accordingly, new superparamagnetic nanomaterials incorporating several types of materials carbon based. It was observed that the carbon materials containing 15 to 20% of magnetic nanoparticles could be completely removed from the media with the use of a magnet. In this way, the functionalized superparamagnetic nanoparticles proved useful for the removal of oil spills and of organic pollutants from industrial processing water, as well as for the capture, removal and recovery of metallic elements and organic species from the effluents. In addition, as a proof of concept, smart windows and displays were elaborated based on the modulation of the transmitted or reflected light by the external magnet. This work was sponsored by PETROBRÁS, and also covered missing, non-authorized aspects involved in two patent applications. Finally, an important consequence to be mentioned is the contribution of this project for launching new chemical routes towards sustainability, such as the development in this Laboratory, of green, magnetic nano-hydrometalurgy for processing and recycling strategic metals, and of the magnetic remediation of polluted environments using the functionalized nanomaterials.

Ciências dos materiais

Microscopia eletrônica

Nanotecnologia

Química verde

Síntese inorgânica

Eletron microscopy

Green chemistry

Inorganic synthesis

Materials sciences

Nanotechnology

Síntese e caracterização de diferentes óxidos de titânio por meio de rotas verdes / Characterizion of various environmentally friendly synthezied titanium oxides

Marina Moraes Leite

06 August 2012

Óxidos à base de titânio são estudados por suas diversas aplicações. Dentre eles, compostos com estrutura cristalina de perovskita apresentam propriedades elétricas diferenciadas. Ademais, os recém-descobertos nanotubos derivados de TiO2 por método hidrotérmico têm chamado a atenção dos pesquisadores por sua alta área superficial e fácil obtenção, embora ainda haja controvérsias sobre sua estrutura cristalina e a influência das condições de síntese. Com o desenvolvimento tecnológico, tornou-se fundamental a obtenção de materiais mais puros e com propriedades controladas, o que vem sendo alcançado através de rotas brandas, relacionadas à Química Doce. Simultaneamente, a preocupação ambiental vem influenciando as metodologias sintéticas através das diretrizes da Química Verde. Esta pesquisa visa: 1. caracterização de SrTiO3 obtido por rotas brandas - sal fundido, hidrotérmica, precipitação do sol e combustão. Os produtos foram caracterizados por análise de sorção de N2, DRX e termogravimetria, para a comparação de área superficial (BET), perfil de porosidade (DFT), composição cristalina e cristalinidade, tamanho de partículas e composição química. 2. exploração do sistema de nanotubos derivados de TiO2 pelo método hidrotérmico em NaOH 10 mol.L-1. Foram comparados quatro precursores (TiO2 amorfo, anatase e rutilo obtidos via precipitação de alcóxido, e o comercial P25), dois tempos de reação (24h e 72h), e o efeito de lavagem posterior com HCl. As amostras foram caracterizadas por DRX, área superficial (BET), perfil de porosidade (BJH), MEV e MET, além de espectroscopia Raman e TG e o efeito da temperatura na composição cristalina das amostras. A rota de precipitação do sol produziu SrTiO3 com maior grau de cristalinidade e de impurezas, sendo que sua área superficial diminuiu após tratamento a 400°C. Todos os produtos continham SrCO3, eliminado após 900°C. O método da combustão não formou o titanato. Nanotubos de comprimentos variados foram obtidos de todos os precursores cristalinos, sendo que rutilo não gerou outros tipos de nanoestruturas e os nanotubos mais longos. Além disso, foi o polimorfo que reagiu mais lentamente. O precursor amorfo gerou nanoestruturas semelhantes a nanofios. Foi observado que os nanotubos são compostos de titanatos de sódio lamelares, sendo esses cátions trocados por H+ pela lavagem dos pós com HCl. Essa troca iônica promove a diminuição da região interlamelar e o aumento da área superficial das amostras. / Titanium based oxides are studied for their wide range of applications. Among them, perovskite-like oxides show especial electrical properties. Furthermore, the recently discovered TiO2-derived nanotubes through hydrothermal process have been drawing researchers\' attention for their high surface area and because they can be easily obtained, although their crystal structure and the influence of condition synthesis still being point of controversy. Due to technological advances, the production of property-controlled, composition and phase pure materials has become crucial. These aims have been achieved by the employment of soft routes, related to Soft Chemistry synthesis. Simultaneously, environmental concerns have influenced synthetic methodologies through the Green Chemistry guidelines. This research aims: 1. characterizing of SrTiO3 synthesized by soft routes, namely molten salt synthesis, hydrothermal method, sol-precipitation process and combustion synthesis. The products were characterized by N2 sorption analysis, XRD and thermogravimetry in order to compare their surface area (BET), porous structure (DTF), chemical and crystal phase composition, crystallinity and particle size. 2. exploring the system of nanotubes hydrothermally derived from TiO2 in NaOH 10 mol.L-1. The effects of precursor type (amorphous TiO2, anatase and rutile obtained by alcoxide hydrolysis, and commercial P25), reaction time (24h and 72h), and acid washing treatment were compared. The samples were characterized by XRD, surface area (BET), porous structure (BJH), SEM and TEM, besides Raman spectroscopy, TG and temperature effect on the crystal composition. The sol-precipitation route produced the SrTiO3 sample with higher crystallinity and amount of impurities, while its surface area decreased on 400°C heat-treatment. All products showed SrCO3 presence up to 900°C. Combustion synthesis did not lead to the strontium titanate. Varied-length nanotubes and other nanostructures were obtained from all crystalline precursors, although rutile-derived samples showed only nanotubes, and the longest ones. On the other hand, this precursor reacted more slowly than the others. Amorphous TiO2 produced wire-like nanostructures. It has been observed that nanotubes are composed of lamellar sodium titanate, and that HCl washing promotes Na+ exchange for H+ ions. This ion-exchange leads to a decrease in the interlamellar spacing and an increase in the surface area of the samples.

Método hidrotérmico

Nanotubos de TiO2

Química doce

Química verde

Titanato de estrôncio

Green chemistry

Hydrothermal processing

Soft chemistry

Strontium titanate

TiO2 nanotubes

Avaliação rápida, direta e sem geração de resíduos de amostras da vida cotidiana por fluorescência de raios X por dispersão em energia / Fast, direct and green evaluation of daily samples by energy dispersive X-ray fluorescence

Col, José Augusto da, 1973-

01 March 2013

Orientador: Maria Izabel Maretti Silveira Bueno / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Quimica / Made available in DSpace on 2018-08-23T02:23:48Z (GMT). No. of bitstreams: 1 Col_JoseAugustoda_D.pdf: 9318257 bytes, checksum: 54d0d6d3a0ad6811b828d2ca100ea0cf (MD5) Previous issue date: 2013 / Resumo: A técnica de Fluorescência de Raios X (XRF) considera medidas de intensidades e energias características dos raios X emitidos por amostras submetidas à radiação X. É rápida, de baixo custo, não destrutiva e multielementar. Essas características são muito atraentes para amostras da vida cotidiana. Um exemplo apresentado no Capítulo 2 é a análise exploratória da composição elementar de materiais escolares (giz de cera, massa de modelar e tinta guache), que possuem grande apelo junto ao público infantil. Por meio do método de Parâmetros Fundamentais (PF), que corrige teoricamente o efeito interelementar, constatou-se que a maioria dos materiais não apresentava contaminação por elementos tóxicos. Porém, três marcas de guache apresentaram o elemento Br (0,0024 ± 0,0001 a 0,0137 ± 0,0002 g/100g) e uma amostra de giz de cera, Ba (0,138 ± 0,005 g/100g). No terceiro capítulo, a comparação do uso de dois equipamentos de EDXRF (portátil e bancada) ajudou na caracterização de joias e bijuterias (colares, brincos, pulseiras, anéis e piercings), por meio da determinação dos teores dos constituintes metálicos que podem oferecer risco à saúde, como Ni e Pb. Várias amostras apresentaram concentração de Ni suficiente para provocar processos alérgicos, sinalizando a necessidade de cuidados pelas agências da área de saúde. Finalmente, no quarto capítulo, a quantificação de Na e Kem sal de cozinha (refinado, marinho e light) revelou dificuldades do método de PF na quantificação de elementos leves (Z < 22). O uso de um método univariado, baseado na calibração com as áreas dos picos, é uma alternativa possível, ainda que a manipulação de arquivos consuma certo tempo. A quantificação foi realizada com boas correlações tanto para Na (r = 0,974), como para K (r = 0,992). O método multivariado usando Partial Least Square Regression (PLS), com 5 LV, mostrou-se mais rápido. As quantificações de Na forneceram erros de calibração inferiores a 16% e uma correlação de 0,995. A tendência mais preocupante encontrada nas análises foi a possível não redução indicada pela legislação para o teor de Na no sal de cozinha light, que deve ser de 50%. As aplicações apresentadas podem ser realizadas de forma rápida, multielementar e atendendo às especificações da Química Verde / Abstract: X-Ray Fluorescence (XRF) employs measurements of intensities and characteristic energies of x-rays emitted by samples submitted to X-radiation. It is fast, low-cost, non-destructive and a truly multielement analytical technique. These properties are very attractive to be applied to daily life samples. An example is the exploratory analysis of the composition of school supplies (crayons, modeling clays, and gouaches), materials largely employed by children. Through the Fundamental Parameters method (FP), that performs theoretical corrections for the interelement effect, it was observed that most of the samples did not contain toxic elements. However, three gouache brands presented Br (0.0024 ± 0.0001 to 0.0137 ± 0.0002 g/100g), and a crayon sample contained Ba (0.138 ± 0.005 g/100g). In chapter 3, the comparison of two EDXRF devices (portable and benchtop) aimed at monitoring jewelry and bijou (necklaces, earrings, rings, bracelets and piercings) through the determination of metals that may be harmful, such as Ni and Pb. Many samples presented Ni concentrations that could trigger allergic processes, clearly indicating the need for a closer monitoring by health agencies. Finally, in chapter 4, the determination of Na and K in table salts (refined, marine and light types) revealed the difficulties of the PF method when working with light elements (Z < 22). An univariate method based on peak areas calibration is an attractive alternative, even though steps of data manipulations might consume some time. Quantifications were performed with good correlations for both Na (r = 0.974), and K (r = 0.992). A Partial Least Square Regression (PLS) method with 5 LV was very fast. Na quantifications provided calibration errors lower than 16% and a correlation of 0.995. Of great concern was the observation of high Na+ levels in light cooking salts, a type consumed mostly by hypertensive patients. The presented applications may be done in a fast and multielement fashion, in accordance with the Green Chemistry specifications / Doutorado / Quimica Analitica / Doutor em Ciências

Fluorescência de raio X

Química verde

Material escolar

Jóias

Sal de cozinha

X-ray fluorescence

Green chemistry

School supplies

Jewelry

Table salt

The preparation and testing of novel biodegradable surfactants using poly(lactic acid) as the backbone, by a one-step ring opening polymerisation reaction

Hill, Gavin T. H.

January 2009

A review of the chemistry of poly(lactic acid) was carried out with a focus on techniques and applications of PLA polymer and copolymers with reference to some of the work that has been accomplished over the last 20 years or so. A review of the characterisation techniques used to analyse PLA polymers and copolymers was also carried out giving reference to the equipment and methods used herein. An investigation into the potential of PLA as the hydrophilic portion of a polymeric surfactant was carried out. To develop PLA based surfactants, the ring opening polymerisation of lactide was carried out in a melt in the presence of a long chain alcohol (C₇ to C₂₀) or diol (C₄ & C₆) to produce AB or ABA type polymers that follow the traditional surfactant template. Stannous octanoate and 4-dimethylaminopyridine were typically used as catalysts due to their high activity and relative cheapness. PLA only shows good hydrophilicity with up to 12 lactic acid units in the chain. Above this the electrostatic interactions between polymer chains reduced water solubility. It was also noted that D,L-lactide produced more water soluble polymers (syndiotactic) than the enantiomerically pure L-lactide (isotactic polymer chains). An investigation of the hydrophobic properties of PLA was carried out to evaluate their usefulness for other biodegradable surfactant applications. To this end an investigation of sugars as the hydrophilic portion of the molecule was carried out. Due to problems with solubilising sugars, they were deemed unsuitable for use as initiatiors within the scope of this research. Choline chloride was then investigated as a potential hydrophilic initiator and indeed has produced some of the most water soluble of PLA polymers. Choline chloride presented several challenges as an initiator, its high melting point resulted in polar solvents such as t-butanol being employed. Alternatively, more success was achieved by preparation of a choline chloride eutectic mixture prior to the polymerisation. It was discovered that a choline chloride/urea eutectic mixture was capable of self initiation, thus required no further addition of catalyst, this result shows a potential step forward in PLA green chemistry. A final investigation into producing surface-active PLA in a one-pot process that required only a hydroxycarboxylate initiator was carried out. The production of PLA sodium or potassium salts was carried out in a melt polymerisation and the results show some promise. Initiators that have been employed include a range of a, b and g-hydroxycarboxylic acids. These work through tautomerisation to the alkoxide, which then initiates a living type polymerisation of lactide to produce surface-active polymers. As well as the synthesis of these polymers some analysis of the physical and aqueous properties of these materials was carried out. PLA sodium salts were shown to have reasonable surfactant ability (~45 mNm⁻¹) and low CMC values of around 5x10⁻⁹ mol cm⁻³. They were also shown to have some properties as emulsifiers, and in some cases showed non-Newtonian fluid behaviour such as shear-thinning (thixotropy) and shear-thickening (dilatant). The thermal characteristics of the polymers such as T[subscript]g and stability were assessed as well as their ability to retain water.

668

Utilisation de zéolithes dopées avec des métaux en synthèse organique / Use of metal-doped zeolites in organic synthesis

Wimmer, Eric

08 December 2016

A l’heure actuelle, la réduction de l’impact environnemental de l’industrie chimique est un enjeu majeur. Pour parvenir à ce but, le concept de Chimie Verte, né dans les années 90, cherche à promouvoir les réactions catalysées et notamment l’utilisation de catalyseurs hétérogènes. L’objectif de cette thèse a été d’utiliser des zéolithes, aluminosilicates microporeux, dopées avec un métal, pour des applications en synthèse organique, et notamment dans une synthèse multi-étapes. Ce type de catalyseur hétérogène est intéressant car il est potentiellement recyclable, facile à séparer du milieu réactionnel et stable.Afin d’atteindre notre objectif, la synthèse totale de l’acortatarine A a été effectuée en utilisant lors d’une étape, une zéolithe dopée avec du cuivre pour former un N-alcynylpyrrole et lors d’une autre étape, une zéolithe dopée avec de l’argent pour effectuer une spirocétalisation. Dans un premier temps, les méthodologies liées à ces deux réactions ont été étudiées puis dans un second temps, en se basant sur les connaissances acquises, la synthèse totale de l’acortatarine A a été effectuée avec succès. Il est à noter que lors de cette synthèse, deux étapes additionnelles ont été réalisées avec des zéolithes acides. A travers cette synthèse nous avons montré que les zéolithes dopées avec des métaux qui entrent pleinement dans le cadre de la Chimie Verte, peuvent être des outils très attractifs dans les synthèses multi-étapes. / Nowadays, reduction of the environmental impact of the chemical industry is a major challenge. To reach this goal, Green Chemistry was born in the 90s where catalysis plays an essential role especially with heterogenous catalysts. The aim of this PhD thesis was to use a support (zeolite) doped with a transition metal in organic synthesis and more specifically in a multi-step synthesis. These heterogeneous catalysts are interesting because they are potentially recyclable, easy to separate from reaction medium and stable. In order to reach our goal, we have performed the total synthesis of acortatarin A performing a step with a copper doped zeolite to form a N-alcynylpyrrole and in another step, a silver doped zeolite was used in a spiroketalization. The methodology linked to these two steps was firstly studied and then gained knowledge was successfully applied in the total synthesis of acortatarin A. Moreover, two additional steps were carried out with acidic zeolites during the synthesis. Through this total synthesis, we have demonstrated that metal-doped zeolites can be very attractiveto perform multi-step synthesis.

Chimie verte

Catalyse hétérogène

Zéolithes

Synthèse totale

Acortatarine A

Green chemistry

Heterogeneous catalysis

Zeolites

Total synthesis

Acortatarin A

547.2

Synthèses et propriétés de mélanges de nouvelles molécules polyfonctionnelles lipopeptidiques tensioactives / Synthesis and properties of mixtures of new polyfunctional lipopeptidic surfactants molecules

Rondel, Caroline

17 February 2009

Les tensioactifs sont des produits chimiques largement utilisés dans le monde. Dans un contexte de développement durable, il est important de développer selon les principes de la chimie verte de nouvelles molécules amphiphiles issues de substances naturelles renouvelables. L'association d'un acide aminé ou d'un peptide et d'un composé à longue chaîne permet l'obtention de molécules ayant une activité de surface élevée. Nous avons étudié et développé de nouveaux mélanges de tensioactifs obtenus à partir de protéines de pois. Dans une première étape, les protéines sont hydrolysées par l'Alcalase et la Flavourzyme à 50°C, pH 7,5, durant 30 min, afin d'obtenir des peptides de 3 à 5 acides aminés en moyenne qui constituent la partie hydrophile des tensioactifs. Puis, dans l'eau, la partie lipophile en C12 est greffée sur les fonctions amines libres avec un taux de 83% par une acylation de Schotten-Baumann, préalablement mise au point sur des acides aminés modèles. La CMC des formulations anioniques obtenues atteint 75 mg/L avec une TS de 28,4 mN/m (en comparaison aux 240 mg/L et 39,1 mN/m pour le SDS) ce qui leur confère des propriétés moussantes et émulsifiantes comparables voir supérieures aux tensioactifs pétrochimiques commerciaux. Enfin, ces mélanges sont cationisés par estérification des fonctions carboxylates à l'aide du chlorure de glycidyltriméthylammonium augmentant ainsi leur potentiel zêta de +70 mV. Les formulations ont alors des CMC de 90 mg/L et des TS de 32 mN/m. Les deux nouvelles familles de tensioactifs naturels synthétisées présentent d'excellentes propriétés ce qui permet d'envisager leur utilisation comme une alternative « verte » dans de nombreux secteurs d'application. / The surfactants are chemical products widely used in the world. Within a context of sustainable development, it is important to develop, following the principles of green chemistry, new amphiphilic molecules from natural renewable materials. The association of an amino acid and a long chain compound allows obtaining molecules with a high surface activity. We studied and developed new mixtures of surfactants obtained from pea proteins. In a first step, proteins are hydrolyzed by Alcalase and Flavourzyme at 50°C, pH 7.5, during 30 min, to obtain peptides with an average of 3 to 5 amino acids that constitute the hydrophilic part of surfactants. Then, the lipophilic part with 12 carbons is grafted on the free amine functions with a rate of 83% by a Schotten-Baumann reaction, in water. This reaction was developed with amino acids as a model. The CMC of the anionic formulations obtained reaches 75 mg/L with a ST of 28,4 mN/m (in comparison to 240 mg/L and 39.1 mN/m for the SDS) that gives foaming and emulsifying properties comparable or even better than petrochemical commercial surfactants. Finally, these mixtures are cationized by esterification of carboxylate functions with the glycidyltrimethylammonium chloride thus increasing their zeta potential of +70 mV. The formulations have a CMC of 90 mg/L and a ST of 32 mN/m. Both synthesized new families of natural surfactants present excellent properties which permit to consider their use as a “green” alternative in numerous applications.

Protéines

Chimie verte

Enzymes

N-acylation

Propriétés tensioactives

Cationisation

Proteins

Green chemistry

Enzymes

N-acylation, Surfactant properties

Cationisation

Synthesis and characterization of innovative catalysts for the selective oxidation of 5-hydroxymethylfurfural / Synthèse et caractérisation de catalyseurs innovants pour l'oxydation sélective du 5-hydroxyméthylfurfural

Bonincontro, Danilo

30 January 2019

L'épuisement progressif des matières premières d'origine fossile et la nécessité de réduire les émissions de gaz à effets de serre ont conduit la communauté scientifique à rechercher de nouveaux matériaux dont la production ne dépendra pas de ressources non renouvelables. Dans un autre temps ces matériaux pourront déjà être introduits sur le marché afin de substituer des produits déjà existant qui proviennent de matières premières fossiles. Par exemple, l'acide 2,5-furandicarboxylique (FDCA) obtenu par valorisation de la biomasse lignocellulosique est un potentiel substituant de l'acide téréphtalique actuellement utilisé pour la production de polyesters. En effet, le FDCA peut être obtenu par oxydation sélective du 5-hydroxyméthylfurfural (HMF) synthétisé à partir de la biomasse lignocellulosique. Ainsi, ce travail de thèse peut être défini par deux problématiques principales : (1) Le développement de catalyseurs pour l'oxydation de HMF en FDCA sans utiliser de bases inorganiques et (2) Développement de membranes catalytiques de polymères pour la future adaptation du procédé d'oxydation en réacteur à flux continu. Pour ce qui concerne l'oxydation de HMF dans des conditions neutres, une première étude s'est intéressée à la possibilité d'utiliser de l'oxyde de nickel nanométrique comme support pour des nanoparticules. Ensuite, la possibilité d'utiliser des nanoparticules de Pt supportées sur du TiO2 obtenues par décomposition contrôlée de clusters carbonyliques a été étudiée. Ainsi, des membranes de polymère obtenues par électrospinning, contenant les nanoparticules métalliques étudiées précédemment, ont été appliquées comme système catalytique pour l'oxydation du HMF / The depletion of fossil-derived resources and the need to decrease the emission of green-house gases led scientists to look for sustainable materials to replace the already existing fossil-derived ones. For instance, 2,5-furandicarboxylic acid (FDCA) has been pointed out as the bioderived counterpart of terephthalic acid for the synthesis of polyesters. In fact, FDCA could be obtained by means of selective oxidation of 5-hydroxymethylfurfural (HMF), a bio-derived platform molecule produced by glucose hydrolysis. This reaction is known to be catalyzed by supported metal nanoparticle systems in presence of inorganic bases under batch conditions. This work deals with the development of catalytic systems able to perform the base-free HMF oxidation, since the possibility to circumvent base addition leads more sustainable processes. In particular, two different sets of catalytic systems have been studied: mono- and bimetallic Au and Pd nanoparticles on nano-sized NiO, and mono- and bimetallic Pt/Sn systems on titania, prepared via cluster precursor decomposition. Another topic that will be discussed in this thesis focuses on the development of catalytically active polymeric membranes obtained via electrospinning and their application as catalytic system for HMF oxidation either under basic and neutral aqueous conditions. In details, polyacrylonitrile and nylon have been tested as electrospun polymeric matrixes for the embedding of Au-based nanoparticles and Pt clusters

Chimie verte

5-hydroxyméthylfurfural

Nanoparticules métalliques

Valorisation de la biomasse

Green chemistry

5-hydroxymethylfurfural

Metal nanoparticles

Biomass valorisation

540

Bioconversion du CO2 en méthanol par un système polyenzymatique encapsulé dans des nanocapsules poreuses de silice / CO2 Bioconversion into methanol by a polyenzymatics systems incorporated in new silica porous nanoparticles

Cazelles, Rémi

13 December 2013

Le déclin de la production de pétrole, lié avec la diminution des matières premières carbonées pour la synthèse chimique ont mené les scientifiques à chercher de nouvelles sources de carbone pour l'industrie chimique. L'utilisation du dioxyde de carbone aiderait à réduire les émissions de gaz à effet de serre tout en fournissant une matière première renouvelable à base de bloc moléculaire en C1. En renversant les équilibres biologiques de trois déshydrogénases, nous avons effectué la biosynthèse multienzymatique en cascade du méthanol à partir de CO2 en utilisant la formiate déshydrogénase de Candida boidinii, la formaldéhyde déshydrogénase de Pseudomonas putida et l'alcool déshydrogénase de Saccacharomyces cerevisiae. Nous avons optimisé le système en ajustant les conditions catalytiques et la quantité relative de chaque déshydrogénase. La phosphite déshydrogénase de Pseudomonas stutzeri a été également choisi comme système de régénération du cofacteur nicotinamide adénine dinucléotide réduit (NADH) parmi 4 systèmes de régénération étudiés. L'ensemble du système a été encapsulé dans des nanocapsules poreuses de silice qui a permis d'augmenter 15 fois les productivités en méthanol. Nous avons montré que les dernières limitations rencontrées, comme la disponibilité du CO2 et l'accumulation du méthanol, peuvent être dépassées en mettant en place un système catalytique en flux continu en phase gaz. / The decline of oil production, linked with the decrease of carbon feedstock for chemical synthesis leads scientist to find new sources of carbon for the chemical industry. Use of carbon dioxide would help to reduce the greenhouse gas emissions while providing a renewable feedstock of C1 molecular building blocks. By reversing the biological metabolic reaction pathway of three dehydrogenase, we carried out multistep multienzyme biosynthesis of methanol from CO2 using formate dehydrogenase from Candida Boidinii, formaldehyde dehydrogenase from Pseudomonas Putida and alcohol dehydrogenase from Saccacharomyces cerevisiae. We improved the system active by adjusting the catalytic conditions and the relative quantity of each dehydrogenase. Phosphite dehydrogenase from Pseudomonas stutzeri was also chosen among 4 different studied systems to be introduced into the catalysis as a cofactor regenerating system for reduced nicotinamide adenine dinucleotide. The enzymatic system was then immobilized by encapsulation into novel phospholipid templated silica nanocapsules, allowing an increase of the methanol productivity by a factor 15. We show that the last limitation of the process as substrate availability and product accumulation can be overcome by running continuous enzymatic flow conversion in a gas phase.

Chimie verte

Nanomateriaux

Polyenzymatique

Phospholipides

Phase gaz

Production protéine

Green chemistry

Nanomaterial

Polyenzymatic

Phospholipid

Gas phase

Protein production

540

Investigation of mechanochemical synthesis of condensed 1,4-diazines and pharmaceutically attractive hydrazones / Investigation de la synthèse mécanochimique de 1,4-diazines condensées et d'hydrazones d’intérêt pharmaceutique

Marques de Oliveira, Paulo Filho

30 October 2015

L'un des objectifs des industries chimique et pharmaceutique est de développer des procédés verts évitant ou réduisant l'utilisation de solvants. Mais ne pas utiliser de solvant nécessite souvent des catalyseurs métalliques ou autre, ce qui rend les purifications délicates, comme dans le cas des synthèses de chimie fine permettant l'obtention de principes actifs pharmaceutiques. C'est ainsi que la mécanochimie a émergé en tant que voie durable pour la synthèse chimique, y compris dans le cas des transformations moléculaires organiques sous contrainte mécanique. Malgré les progrès récents de cette méthodologie, certains aspects de l'action mécanique ne sont pas totalement élucidés, en particulier ce qui concerne les mécanismes. Dans cette thèse, trois axes principaux de la mécanochimie ont été explorés. Dans une première partie, le mécanisme moléculaire de la synthèse de deux types de 1,4-diazines, la dibenzo[a,c]phenazine (DBPZ) et la 2,3-diphenylquinoxaline (DPQ), a été investigué. La RMN 13C CP-MAS a permis de mettre en évidence des intermédiaires de cette synthèse, et des mesures calorimétriques ont révélé que deux réactions se poursuivaient après broyage. La possibilité d'une réaction concertée a également été prise en compte dans le cas de la dibenzo[a,c]phenazine. La seconde partie concerne la formation de la 2,3-diphenylquinoxaline. Les paramètres du procédé ont été étudiés, dans le cas d'un broyeur à bille vibrant. L'influence des matériaux de broyage, de la taille et de la masse des billes, la granulométrie des matières premières, ainsi que la température des media de broyage ont été étudiés, permettant de déterminer une énergie d'activation apparente (Ea). Le tracé des courbes selon Arrhenius et Eyring-Polanyi a montré des changement de Ea caractéristiques de modifications au niveau du mécanisme, attribuées à l'apparition d'un possible eutectique fondant au dessus de 30°C, induit mécaniquement. Après cette étude qui a permis la compréhension de certains points fondamentaux, et d'approfondir les procédés de ces réactions modèles, une troisième partie traite de l'application de la mécanochimie à la synthèse en phase solide d'hydrazones d'intérêt pharmaceutique, et à celle catalysée de dérivés de l'isoniazide obtenus par réaction d'aldéhydes et d'hydrazines. D'une manière générale, les durées de réaction sont plus faibles, et les rendements meilleurs, qu'avec les méthodes classiques. L'influence des réactivités électronique et des hydrazines à l'état solide a été discutée. Les essais biologiques ont démontré une activité avérée des dérivés de l'isoniazide dans l'inhibition de Mycobacterium tuberculosis. Les résultats présentés dans cette thèse englobent plusieurs aspects très complémentaires de la mécanochimie. L'approche fondamentale du mécanisme est d'un accès difficile, en raison de la complexité du système, mais des avancées ont été réalisées comme la mise en évidence d'intermédiaires à longue durée de vie. Les paramètres du procédé apportent une contribution à la compréhension du mécanisme mais aussi en vue du scaling-up. Enfin, la mécanosynthèse s'est révélée être une méthode de chimie verte particulièrement adaptée à la synthèse d'hydrazones d'intérêt pharmaceutique, pour le screening de nouvelles entités ou la synthèse durable de produits de grande pureté. / One of the goals of pharmaceutical and chemical industries is the development of green processes that eliminates or reduces the use of solvents. However, avoiding solvents often requires the use of metal catalysts or others, that accelerates chemical reactions, but make the purifications difficult, especially in the case of fine chemical products, such as active pharmaceutical ingredients. The mechanochemistry has emerged as a sustainable way that enables chemical synthesis, including organic molecular transformations, using the mechanical energy. In spite of the recent advances of the methodology, some aspects of the mechanical action still remain to be fully elucidated, mainly concerning the mechanisms. In this thesis, three main axes of mechanochemistry were explored. First, the molecular mechanism of 1,4-diazine mechanosynthesis, mentioning dibenzo[a,c]phenazine (DBPZ) and 2,3-diphenylquinoxaline (DPQ), is investigated by using 13C CP-MAS NMR that reveals intermediate species for DBPZ, and by calorimetric measurements that show continuation of the reaction after grinding for both reactions. The possibility of a concerted mechanism is considered for dibenzo[a,c]phenazine case. The second focus is on 2,3-diphenylquinoxaline product formation. The process parameters for a vibratory ball mill were studied. Grinding material, size and mass of the balls, granulometry of the starting material were assessed, as well as the temperature of the milling media, providing apparent activation energy (Ea). Arrhenius and Eyring-Polanyi plots presented changes in Ea indicating changes in mechanism, which was attributed to a possible mechanically induced eutectic melting after 30°C. Finally, after understanding some fundamentals and processes for those model reactions, the mechanochemical route was successfully applied to solid-state synthesis of pharmaceutically attractive phenolic hydrazones and catalyzed isoniazid derivatives synthesis, by reacting solid aldehydes and hydrazines. In general, the products were obtained in shorter times and in higher yields compared to classical thermal route. The roles of electronic and solid-state reactivity of the hydrazines were discussed. Biological assays demonstrated the great activity of isoniazid derivatives in inhibiting Mycobacterium tuberculosis. The results presented here cover the mechanochemistry at different levels. The fundamental comprehension is still difficult to access due to the complexity of the system, but some advances could be made such as the detection of intermediate species with significant lifetime. The process parameters are equally important to deduce some mechanism, but also for scale up purposes. At last, the mechanosynthesis of hydrazones showed to be a greener route to produce pharmaceuticals, for high screening of new ones, as well as for the synthesis of others, with great purity and waste reduction.

Chimie verte

Mécanochimie

Mécanisme

Cinétique

1.4-Diazine

Hydrazone

Green chemistry

Mechanochemistry

Mechanism

Kinetics

1.4-Diazine

Hydrazone

660.2

XXXV IULTCS Congress 2019 - Proceeding Book of Abstracts: “Benign by Design” Leather - The Future through Science and Technology, June 25-28, 2019, Dresden - Germany

28 June 2019

No description available.

info:eu-repo/classification/ddc/620

ddc:620